Extended hummingbird feeder tube

Abstract

An extended hummingbird feeder tube is provided which has a tubular shaft length of at least about six times the length of the internal diameter of the tubular shaft, and which extends to substantially a bottom portion of an upright reservoir to facilitate efficient and effective feeding for hummingbirds. Preferably, the hanging, upright tube has an annular lip which can take the form of various flower blossoms in order to replicate the external and internal characteristics of a typical flower.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This is a Continuation application of and claims priority from U.S. Utility patent application Ser. No. 09/952,567, filed Sep. 13, 2001, now U.S. Pat. No. 6,499,430, entitled "EXTENDED HUMMINGBIRD FEEDER TUBE" which is a continuation of U.S. Design Patent Application, Ser. No. 29/131,999, filed Oct. 30, 2000, now U.S. Pat. No. D450,892, entitled "RESERVOIR FOR A HUMMINGBIRD FEEDER" which are both incorporated herein by reference in their entirety.

FIELD OF THE INVENTION

The present invention relates to hummingbird feeders, and more specifically to an extended hummingbird feeder tube adapted for use with an upright reservoir.

BACKGROUND OF THE INVENTION

Hummingbirds have a fast breathing rate, a fast heartbeat, and a high body temperature. As a result, they must feed every ten minutes or so throughout the day, and consume as much as two-thirds of their total body weight in a single day. While they eat both nectar and insects, about a third of a hummingbird's diet is sugar, which is obtained from flower nectar and tree sap.

Hummingbirds have bills that are long and tapered, perfectly suited for probing into the center of tubular flowers, such as trumpet vines, for the nectar. A hummingbird's tongue is approximately one and one-half times the length of its bill, tube-like in nature, and is used to dart deep into the flowers for nectar, taking up liquid by a capillary action.

Various hummingbird feeders are known in the industry which attempt to replicate the flower feeding experience for a hummingbird. Feeders are made which hang vertically with feeder tubes extending downward. Other feeders are comprised of horizontal, hanging reservoirs with feeding tubes emanating therefrom. These feeding tubes often replicate flower blossoms and are colored in nature in order to attract the hummingbirds.

Three problems exist, however, with traditional feeding tubes. First, the tubes, as currently known in the art, do not replicate or encourage a true feeding experience for hummingbirds. The stem of a typical feeding tube does not extend for the full length of a hummingbird's bill. The proportional dimension of the feeding tube diameter and length are not realistic. Consequently, when a hummingbird places its bill in such a stem, its tongue extends well beyond the stem, thereby negating the capillary action of the tongue and failing to replicate the sensation of feeding from a flower. As a result, these types of feeding tubes are not as effective for encouraging the feeding of hummingbirds.

Second, due to the shortness of the stem, the feeder becomes ineffective once the fluid contained therein falls below the bottom of the stem. When this happens, a hummingbird inserts its tongue past the stem and makes contact with air rather than fluid. As a result, the hummingbird believes that there is no more "nectar" in the feeder and leaves, even though this is not the case. The remaining fluid is wasted, based on non-use. While feeding tubes exist that are longer in nature, they typically are used in conjunction with downward-facing hummingbird feeders and are not inserted into the reservoir itself, but rather are suspended from the orifice of the reservoir. This configuration does not pose the problem of having fluid go unused because gravity continually draws fluid into the tube. However, leaking and the attraction of annoying insects such as wasps, bees, and ants are problematic with this type of inverted feeder tube.

Third, because typical feeder tubes do not substantially extend into the feeder reservoir, insects with short tongues, such as bees, are encouraged to feed on the "nectar," thereby depleting the amount left for hummingbirds. A narrower, longer tube would discourage these insects from attempting to steal "nectar" from these feeders.

Thus, there is a need for an extended hummingbird feeder tube which is of sufficient length and a proportional internal diameter so that it replicates a tubular flower feeding experience while also discouraging insects and maximizing the use of the fluid contained in the feeder.

SUMMARY OF THE INVENTION

It is thus one aspect of the present invention to provide a more realistic feeding tube adapted for use with a hummingbird feeding reservoir in order to encourage more hummingbird feeding activity. It is a further aspect of the present invention to provide a hummingbird feeding tube which efficiently utilizes the fluid contained in an upright reservoir.

Thus, in one embodiment of the present invention a hummingbird feeding tube is comprised of a tube with an annular lip in the shape of a blossom, whereby the length of the stem extends substantially to the bottom of the upright reservoir and is at least about six times as long as the internal diameter of the feeding tube. This configuration more closely replicates a hummingbird's feeding experience with a trumpet vine blossom--a hummingbird favorite. Due to a hummingbird's ability to extend its tongue well beyond its bill, it is critical that the tongue be given the proper receptor in order to facilitate its capillary action. Shorter versions of the feeding tube allow a hummingbird's tongue to wander freely, which negates this capillary action, thereby impeding a hummingbird's ability to feed. By extending the length of the feeding tube, it assures that the majority of the fluid in the reservoir is accessible by the hummingbird.

Accordingly, in one aspect of the present invention, a feeder tube adapted for use with an upright hummingbird feeding reservoir with an aperture for receiving said feeder tube is provided, comprising:

(a) a tube having an internal diameter and a length defined by an upper end and a lower end, wherein said length of said tube is at least about six times the dimension of said internal diameter and extends to substantially a lowermost portion of the reservoir; and

(b) an annular lip integrally interconnected to said upper end of said tube and having a second diameter greater than an external diameter of said upright hummingbird feeding reservoir aperture.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an isometric perspective view of an extended hummingbird feeder tube;

FIG. 2 is a side elevation view of the extended hummingbird feeder tube illustrated in FIG. 1; and

FIG. 3 is an isometric perspective view of the extended hummingbird feeder tube as adapted for use with an upright hummingbird feeder reservoir.

DETAILED DESCRIPTION

Referring now to the drawings, FIG. 1 is an isometric perspective view of one embodiment of an extended hummingbird feeder tube. The feeding tube 2 is generally comprised of a tubular shaft 4, which has an upper end 6 and a lower end 8 which defines the longitudinal shape of the feeding tube 2 and a substantially consistent internal diameter extending from the upper end 6 to the lower end 8. The upper end of the tubular shaft 6 is further comprised of an annular lip 10 which may be shaped like a flower blossom.

In order to replicate the natural experience of feeding from a tubular flower, the length of the tubular shaft 14 is at least about six times as long as the diameter of the tubular shaft 12. This ratio ensures that the hummingbird's tongue has sufficient structure to guide it throughout the feeding process, thereby facilitating its capillary action. In a preferred embodiment of the present invention, the internal diameter of the tubular shaft 12 has a dimension of about ¼ inch, while the length of the tubular shaft 14 has a dimension of between about 1½ and 2 inches.

In one embodiment of the present invention, the annular lip 10 of the tubular shaft 4 is shaped in the form of a blossom in order to replicate a flower. By varying the color and shape of the annular lip 10, different types of flowers can be replicated. It is preferable, however, that the shape be that of the trumpet vine blossom--a five petal blossom--which is a favorite of most species of hummingbirds. The feeding tube 2 can be made out of a variety of materials, such as glass, plastic, or various compositions of resin well known in the art. While preferably red in color, the feeding tube 2 and associated blossom can be various colors in order to replicate different flower blossoms.

An upright reservoir 16 may be provided in combination with the feeding tube of the present invention and which generally comprises a top end 18, bottom end 20, and opposing lateral edges 22 positioned therebetween. As appreciated by one skilled in the art, the lateral edges may comprise a substantially oval or round shape as shown in FIG. 3.

The reservoir 16 is filled with a fluid selected to feed hummingbirds. The lower end of the tubular shaft 8 is then inserted in the aperture provided in the reservoir 16. The aperture preferably has a smaller diameter than that of the annular lip 10 such that when the tube is fully inserted, the annular lip 10 will rest against the outside edge of the aperture. Thus, the feeding tube 2 is supported by the annular lip 10 and the lower end of the feeding tube 8 substantially extends into the reservoir 16.

While an effort has been made to describe some alternatives to the preferred embodiment, other alternatives will readily come to mind to those skilled in the art. Therefore, it should be understood that the invention may be embodied in other specific forms without departing from the spirit or central characteristics thereof. The present examples and embodiments, therefore, are to be considered in all respects as illustrative and not restrictive, and the invention is not intended to be limited to the details given herein.

The following components and numbers associated thereto are provided for clarity purposes:

#  Component


2  Extended hummingbird feeder tube
4  Tubular shaft
6  Upper end of tubular shaft
8  Lower end of tubular shaft
10 Annular lip
12 Diameter of tubular shaft
14 Length of tubular shaft
16 One embodiment of hummingbird feeder reservoir
18 Top of reservoir
20 Bottom of reservoir
22 Lateral edge of reservoir

Claims

1. An upright hummingbird feeder, comprising:

a) a reservoir with at least one aperture positioned proximate to an upper end which is adapted for receiving a feeding liquid;

b) a feeding tube positioned within each of said at least one aperture, said feeding tube having an internal diameter and a length defined by an upper end and a lower end, said length being at least about six times the dimension of said internal diameter of said feeding tube, wherein said feeding tube is adapted to receive a hummingbird's tongue in an unrestricted manner, and wherein said feeding tube extends into said reservoir for operable contact with the feeding liquid and can be freely removed from said reservoir without any substantial resistance; and

c) an open-ended annular lip interconnected to and positioned substantially flush to said upper end of said feeding tube, said open-ended annular lip having a second diameter greater than said reservoir aperture, and wherein said open-ended annular lip resembles a flower blossom having a plurality of petals.

2. The upright hummingbird feeder of claim 1, wherein said open-ended annular lip engages said reservoir proximate to said at least one aperture, wherein said feeding tube is suspended in said reservoir, and is removable for filling said reservoir with said feeding liquid.

3. The upright hummingbird feeder of claim 1, wherein said reservoir and said feeding tube are comprised of glass.

4. The upright hummingbird feeder of claim 1, wherein said reservoir is substantially spherical in shape.

5. The upright hummingbird feeder of claim 1, wherein said at least one aperture is exposed to atmospheric pressure.

6. The upright hummingbird feeder of claim 1, wherein said feeding tube length is measured from a point of interconnection with said open-ended annular lip.

7. The upright hummingbird feeder of claim 1, wherein said lower end of said feeding tube extends into a lowermost portion of said reservoir.

8. The upright hummingbird feeder of claim 1, wherein said plurality of petals have a fluted geometric shape.

9. The upright hummingbird feeder of claim 1, wherein said open-ended annular lip includes a first surface and a second surface, said second surface oriented substantially parallel to said first surface, and wherein said flower blossom is raised from said first or second surface of said open-ended annular lip.

10. The upright hummingbird feeder of claim 1, wherein said flower blossom has a geometric shape which is substantially circular.

11. The upright hummingbird feeder of claim 1, wherein said reservoir is of single-piece construction.

12. An upright hummingbird feeder, comprising:

a) a feeding tube having a length defined by an upper end and a lower end, said length of said feeding tube being at least about six times the dimension of an internal diameter of said feeding tube, wherein said feeding tube is adapted to receive a hummingbird's tongue in an unrestricted manner;

b) an open-ended, annular lip integrally interconnected to and positioned substantially adjacent to said upper end of said feeding tube, wherein said annular lip is adapted to allow access to said feeding tube, and said open-ended annular lip resembles a flower blossom with a plurality of petals; and

c) an upright reservoir for holding a feeding liquid, said upright reservoir defined by a top end and a bottom end, wherein proximate to said top end of said upright reservoir at least one aperture is provided that is adapted to receive said feeding tube, said aperture being smaller than said open-ended annular lip, wherein said open-ended annular lip is supported on said upright reservoir, and wherein said feeding tube extends into a lowermost portion of said upright reservoir.

13. The upright hummingbird feeder of claim 12, wherein said feeding tube has a length at least about a length of a hummingbird's bill to facilitate a capillary lapping action.

14. The upright hummingbird feeder of claim 12, wherein each of said at least one apertures receives a feeding tube.

15. The upright hummingbird feeder of claim 12, wherein said upright reservoir is substantially spherical in geometric shape.

16. The upright hummingbird feeder of claim 12, wherein said at least one aperture is exposed to atmospheric pressure.

17. The upright hummingbird feeder of claim 12, wherein said open-ended annular lip comprises a first surface and a second surface, said second surface oriented substantially parallel to said first surface, wherein said blossom shape is raised from said first or said second surface of said open-ended annular lip.

18. The upright hummingbird feeder of claim 12, wherein said open-ended annular lip has a geometric shape which is substantially circular.

19. The upright hummingbird feeder of claim 12, wherein said upright reservoir and said feeding tube are comprised of glass.

20. The upright hummingbird feeder of claim 12, wherein said upright reservoir is of single-piece construction.

21. An upright hummingbird feeder with at least one feeding tube penetrating into a reservoir adapted for holding a feeding liquid, comprising:

a) a feeding tube having an internal diameter and a length defined by an upper end and a lower end wherein said tube is adapted to receive a hummingbird's tongue in an unrestricted manner and to provide a capillary action which facilitates a lapping of the feeding liquid and wherein said feeding tube extends into said reservoir for openable contact with the feeding liquid and can be freely removed from said reservoir without any substantial resistance;

b) an upright reservoir adapted for holding a feeding liquid, having a top end and a bottom end, and at least one aperture positioned proximate to said top end for receiving said feeding tube; and

c) an open-ended annular lip having a plurality of petals which are integrally interconnected to said upper end of said feeding tube, said open-ended annular lip positioned substantially flush to said upper end of said feeding tube and having an external diameter greater than a diameter of said aperture of said upright reservoir, wherein said annular lip is positioned above said upright reservoir.

22. The upright hummingbird feeder of claim 21, wherein said feeding tube and said upright, open-ended reservoir are comprised of glass.

23. The upright hummingbird feeder of claim 21, wherein each said at least one aperture has a feeding tube extending therethrough.

24. The upright hummingbird feeder of claim 21, wherein said length of said feeding tube is measured from said lower end to a point where said upper end is interconnected to said open-ended annular lip.

25. The upright hummingbird feeder of claim 21, wherein said feeding tube has a length of at least about seven times the dimension of said internal diameter.

26. The upright hummingbird feeder of claim 21, wherein said feeding tube extends into a lowermost portion of said upright reservoir.

27. The upright hummingbird feeder of claim 21, wherein said open-ended annular lip is shaped to imitate a trumpet vine blossom.

28. The upright hummingbird feeder of claim 21, wherein said upright reservoir is of single-piece construction.

29. An upright hummingbird feeder, comprising:

a) a feeding tube having an internal diameter, and a length defined by an upper end and a lower end and extending into a reservoir for operable contact with a feeding liquid, wherein said tube is adapted to receive a hummingbird's tongue in an unrestricted manner and can be freely removed from said reservoir without any substantial resistance,

b) an upright reservoir adapted for holding a feeding liquid and which is defined by a bottom end and a top end, and at least one aperture positioned proximate to said top end for receiving said feeding tube; and

c) an open-ended annular lip, having a shape of a plurality of petals, integrally interconnected to said upper end of said feeding tube, said open-ended annular lip positioned substantially adjacent to said upper end of said feeding tube and having an external diameter greater than a diameter of said aperture of said upright reservoir, wherein said open-ended annular lip is positioned above said upright reservoir and supports said feeding tube within said upright reservoir.

30. The hummingbird feeder of claim 29, wherein said open-ended annular lip imitates a trumpet blossom.

31. The hummingbird feeder of claim 29, wherein said open-ended annular lip has a fluted geometric shape.

32. The hummingbird feeder of claim 29, wherein said open-ended lip has a fused geometric shape.

33. The hummingbird feeder of claim 29, wherein said upright reservoir is substantially spherical in geometric shape.

34. The hummingbird feeder of claim 29, wherein said upright reservoir is of single-piece construction.